Network Fieldbus Power Supply

1. An apparatus comprising: a voltage dropper section configured to: receive an input voltage and a communication signal at an input of the voltage dropper section, regulate the input voltage, and provide the regulated input voltage and the communication signal on an output of the voltage dropper section; and an overvoltage switch section connected in parallel with the voltage dropper section wherein the overvoltage switch section being connected in parallel with the voltage dropper section comprises an input of the overvoltage switch section being connected to the output of the voltage dropper section, the overvoltage switch section being configured to; receive, on the input of the overvoltage switch section, the regulated input voltage and the communication signal, monitor the regulated input voltage provided from the voltage dropper section, and remove the regulated input voltage and the communication signal from an output of the overvoltage switch section when the monitored regulated input voltage from the voltage dropper section exceeds a specified maximum wherein the overvoltage switch section being configured to remove the regulated input voltage and the communication signal comprises the overvoltage switch section being configured to use a control element connected to a shunt voltage regulator device connected across the output of the overvoltage switch section.

2. The apparatus of claim 1 , wherein the voltage dropper section being configured to receive the input voltage and the communication signal at the input of the voltage dropper section comprises the voltage dropper section being configured to receive the input voltage and the communication signal from a trunk cable.

3. The apparatus of claim 1 , wherein the voltage dropper section being configured to regulate the input voltage comprises the voltage dropper section being configured to use a dual-operation amplifier wherein the regulated input voltage is regulated to a maximum level and the communication signal is provided, substantially unaltered, between the input of the voltage dropper section and the output of the voltage dropper section.

4. The apparatus of claim 1 , wherein the voltage dropper section being configured to provide the communication signal on the output of the voltage dropper section comprises using capacitive coupling for higher frequencies of the communication signal and an active control loop for lower frequencies of the communication signal.

5. The apparatus of claim 1 , wherein the overvoltage switch section being configured to monitor the regulated input voltage comprises the overvoltage switch section being configured to use the shunt voltage regulator device connected across the output of the overvoltage switch section.

6. The apparatus of claim 1 , wherein the output of the overvoltage switch section is connected to a wiring hub.

7. A method comprising: receiving an input voltage and a communication signal at an input of a voltage dropper section of an adaptor; regulating, by the voltage dropper section, the input voltage; providing, by the voltage dropper section, the regulated input voltage and the communication signal; receiving, on an input of a overvoltage switch section of the adaptor, the regulated input voltage and the communication signal, the overvoltage switch section connected in parallel with the voltage dropper section wherein the overvoltage switch section being connected in parallel with the voltage dropper section comprises the input of the overvoltage switch section being connected to the output of the voltage dropper section; monitoring, by the overvoltage switch section, the regulated input voltage provided from the voltage dropper section; and removing, by the overvoltage switch section, the regulated input voltage and the communication signal from an output of the overvoltage switch section when the monitored regulated input voltage from the voltage dropper section exceeds a specified maximum wherein removing the regulated input voltage and the communication signal comprises using a control element connected to a shunt voltage regulator device connected across the output of the overvoltage switch section.

8. The method of claim 7 , wherein receiving the input voltage and the communication signal at the input of the voltage dropper section comprises receiving the input voltage and the communication signal from a trunk cable.

9. The method of claim 7 , wherein, removing the regulated input voltage and the communication signal from the output of the overvoltage switch section comprises removing the regulated input voltage and the communication signal from the output of the overvoltage switch section wherein the output of the overvoltage switch section is connected to a wiring hub.

10. The method of claim 7 , wherein providing, by the voltage dropper section, the regulated input voltage and the communication signal comprises using capacitive coupling for higher frequencies of the communication signal and an active control loop for lower frequencies of the communication signal.

11. The method of claim 7 , wherein regulating, by the voltage dropper section, the input voltage comprises using a dual-operation amplifier arrangement wherein the regulated input voltage is regulated to a maximum level and the communication signal is provided, substantially unaltered, between the input of the voltage dropper section and the output of the voltage dropper section.

12. The apparatus of claim 1 , wherein the control element is provided in a high side power rail of the output of the overvoltage switch section.

13. The apparatus of claim 1 , wherein the control element is provided in a ground side power rail of the output of the overvoltage switch section.

14. The method of claim 7 , wherein removing the regulated input voltage and the communication signal comprises removing the regulated input voltage and the communication signal wherein the control element is provided in a high side power rail of the output of the overvoltage switch section.

15. The method of claim 7 , wherein removing the regulated input voltage and the communication signal comprises removing the regulated input voltage and the communication signal wherein the control element is provided in a ground side power rail of the output of the overvoltage switch section.